解密集群中基塔耶夫-海森伯-texorpdfstring{$\Gamma$}系统的竞争相互作用：第二部分--马约拉纳费米子的动力学。

IF 2.3 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

Journal of Physics: Condensed Matter Pub Date : 2024-10-22 DOI:10.1088/1361-648X/ad841b

Sheikh Moonsun Pervez, Saptarshi Mandal

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引用次数: 0

摘要

我们对 Kitaev-Heisenberg-$\Gamma$ 模型中的马约拉纳费米子动力学进行了系统而精确的研究。我们采用精确的乔丹-维格纳变换来评估马约拉纳费米子相关函数的某些度量，这些度量有效地捕捉了不同参数区的物质和规马约拉纳费米子动力学。研究表明，外部磁场会对规整费米子动力学产生深远影响。根据其他非基塔耶夫相互作用的某些非零选择，它可以将其稳定到非相互作用的基塔耶夫极限。在所有参数情况下，规费米子都具有较慢的动力学，这有助于建立适当均场理论的近似解耦方案。马约拉纳费米子返回其原始起始点的概率表明，小型星团中的基塔耶夫模型可用作量子速度极限的试验平台。

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Deciphering competing interactions of Kitaev-Heisenberg-Γ system in clusters: II. Dynamics of Majorana fermions.

We perform a systematic and exact study of Majorana fermion dynamics in the Kitaev-Heisenberg-Γ model in a few finite-size clusters increasing in size up to twelve sites. We employ exact Jordan-Wigner transformations to evaluate certain measures of Majorana fermion correlation functions, which effectively capture matter and gauge Majorana fermion dynamics in different parameter regimes. An external magnetic field is shown to produce a profound effect on gauge fermion dynamics. Depending on certain non-zero choices of other non-Kitaev interactions, it can stabilise it to its non-interacting Kitaev limit. For all the parameter regimes, gauge fermions are seen to have slower dynamics, which could help build approximate decoupling schemes for appropriate mean-field theory. The probability of Majorana fermions returning to their original starting site shows that the Kitaev model in small clusters can be used as a test bed for the quantum speed limit.

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来源期刊

Journal of Physics: Condensed Matter 物理-物理：凝聚态物理

CiteScore

5.30

自引率

7.40%

发文量

1288

审稿时长

2.1 months

期刊介绍： Journal of Physics: Condensed Matter covers the whole of condensed matter physics including soft condensed matter and nanostructures. Papers may report experimental, theoretical and simulation studies. Note that papers must contain fundamental condensed matter science: papers reporting methods of materials preparation or properties of materials without novel condensed matter content will not be accepted.